M.Ed. in Special Education
The University of North Florida (UNF) in Jacksonville offers a Master of Education (M.E...
M.S. in Electrical Engineering
Jacksonville, Florida
INTAKE: Jan & Aug
Program Overview
The University of North Florida (UNF) in Jacksonville, Florida, offers a Master of Science (M.S.) in Electrical Engineering (M.S.E.E.) through its College of Computing, Engineering and Construction. This program is designed to provide advanced study and research opportunities, helping students address complex problems in the field of electrical engineering. It prepares graduates for advanced technical roles in various industries or for further academic pursuits at the doctoral level. The program is 30 credit hours and is a thesis-based program, providing students with one-on-one mentorship as they delve into specialized research. Flexibility is offered with Fall or Spring semester start options.
STEM-designated: Yes, the M.S. in Electrical Engineering at UNF is a STEM-designated program. This is a significant advantage, particularly for international students, as it allows for an extended Optional Practical Training (OPT) period in the U.S. after graduation, providing more time for gaining practical work experience in these high-demand technical fields.
Curriculum: The 30-credit hour curriculum for the M.S. in Electrical Engineering at UNF is designed to provide advanced knowledge and research skills. It is primarily a thesis-based program, meaning all students are required to complete an academic thesis with a faculty advisor. The curriculum consists of 12 credits of major electives and 18 credits for the culminating experience, which includes thesis proposal development (EEL 6970 and EEL 6971) and Master's Thesis (EEL 6972). Elective courses can be any EEE/EEL prefix courses at the 5000 or 6000 level, or approved 5000/6000 level courses from Computing, Engineering, Mathematics, Physics, or online graduate courses from the Florida State University System. The curriculum emphasizes a rigorous approach to problem-solving and critical thinking in electrical engineering. All coursework must be completed with a grade of "B" or better, and a GPA of 3.0 must be maintained.
Research Focus: The M.S. in Electrical Engineering at UNF has a strong research focus, with all students required to complete an academic thesis. The program's mission emphasizes preparing students to "function in a demanding technical environment where their advanced electrical engineering education will allow them to solve uncommon problems in their field of expertise." Through this commitment to electrical engineering research, students gain expanded content knowledge and develop critical thinking skills. While specific faculty research areas at UNF's Electrical Engineering department are not explicitly detailed in publicly available information, typical research areas in Electrical Engineering often include power systems, control systems and robotics, communications, signal processing, RF/microwave, electromagnetics, electronics, and microelectronics. Students are expected to conduct independent research under faculty mentorship, culminating in a thesis defense and a peer-reviewed publication.
Industry Engagement: While specific formal industry engagement programs for the M.S. in Electrical Engineering at UNF are not extensively highlighted in general program overviews, the curriculum and program goals are designed to prepare graduates for professional opportunities in industry. The emphasis on solving "uncommon problems" and excelling in a "demanding technical environment" suggests an alignment with industry needs. Opportunities for industry engagement typically arise through faculty connections, potential research collaborations with local companies, and the university's career services which assist with internships and job placement. Graduates are expected to find employment in industrial companies, consulting firms, and government agencies, indicating the program's strong vocational relevance.
Global Perspective: The M.S. in Electrical Engineering at UNF inherently incorporates a global perspective due to the universal application and rapid evolution of electrical engineering technologies. Electrical engineers design systems and components that underpin global communication networks, energy infrastructures, and smart technologies, all of which operate on an international scale. The curriculum provides a foundational understanding of principles and technologies that are globally recognized. While specific courses on international electrical engineering may not be mandatory, the program's focus on advanced research and problem-solving equips graduates with transferable skills applicable to global challenges in areas like renewable energy, smart grids, and telecommunications, preparing them to contribute to an interconnected technological world.
Location
Jacksonville, Florida
Score
IELTS 6.5
Tuition Fee
USD 18803
Postgraduate Entry Requirements
Application Fee: $31
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 70% or above in their bachelor's degree.
English Language Proficiency:
- IELTS: Overall band score of 6.5 or 7.0 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 79 or higher.
- DET (Duolingo English Test): Minimum score of 110.
Standardized Test Requirements
- GRE (Graduate Record Examinations): Minimum score of 310 required.
The University of North Florida (UNF) offers a variety of scholarships specifically designed to support international students in achieving their academic goals while easing the financial burden of studying in the United States. These scholarships recognize outstanding academic achievements, leadership potential, and community involvement.
Merit-Based Scholarships: UNF provides merit scholarships to international students based on their academic performance, standardized test scores, and extracurricular accomplishments. These scholarships can significantly reduce tuition costs and are awarded automatically to eligible applicants during the admissions process.
International Student Scholarships: Special scholarships are reserved exclusively for international students. Examples include the International Freshman Scholarship and the International Transfer Scholarship, which reward high-achieving students with financial aid packages that may cover partial to full tuition fees.
Need-Based Financial Aid: While limited for international students, some need-based financial aid options may be available through private organizations or partnerships coordinated by UNF’s financial aid office. International students are encouraged to explore external scholarship databases for additional funding opportunities.
Departmental Scholarships: Certain academic departments and colleges at UNF offer scholarships targeted to students enrolled in specific fields of study. International students can apply for these scholarships based on their major, research interests, or academic achievements within their discipline.
A Master of Science (M.S.) in Electrical Engineering (M.S.E.E.) from the University of North Florida (UNF) is a STEM-designated program offered through its College of Computing, Engineering and Construction. This 30-credit hour, thesis-based program is tailored for students seeking advanced knowledge and research expertise in electrical engineering. It prepares graduates for challenging technical roles in various industries or for continued doctoral studies. The program's core emphasis on a thesis provides students with one-on-one mentorship, allowing them to delve deeply into specialized research areas under faculty guidance, solving complex problems in their field of expertise.
Electronics Engineer: Designs, develops, tests, and supervises the manufacturing of electronic equipment, including broadcast and communications systems, medical monitoring devices, navigational systems, and computers. This can involve working with microelectronics and integrated circuits.
Power Systems Engineer: Works with the generation, transmission, and distribution of electrical power. This includes designing power grids, renewable energy systems (solar, wind), power plants, and ensuring the efficiency and reliability of electrical networks.
Control Systems Engineer: Designs, develops, and maintains systems that control machines and processes in various industries, including automation, robotics, manufacturing, and aerospace, ensuring precision and efficiency in operations.
Telecommunications Engineer: Specializes in the design, development, and maintenance of communication systems, including wireless networks, fiber optics, satellite communications, and broadcast systems, enabling global connectivity.
Signal Processing Engineer: Focuses on the analysis, design, and implementation of algorithms for processing and interpreting signals (analog or digital), used in diverse applications such as medical imaging, audio processing, radar systems, and data compression.
Research and Development (R&D) Engineer: Conducts cutting-edge research to develop new technologies, materials, or products in various sectors such as aerospace, automotive, energy, and consumer electronics, pushing the boundaries of electrical engineering.
Embedded Systems Engineer: Designs and develops specialized computer systems that are embedded within larger devices, from IoT devices and automotive systems to medical equipment, combining hardware and software expertise.
RF (Radio Frequency) and Microwave Engineer: Specializes in the design, development, and testing of devices and systems that operate at radio and microwave frequencies, essential for wireless communication, radar, and satellite applications.
Test Engineer (Electrical Systems): Designs, develops, and implements testing procedures for electrical components, devices, and systems to ensure they meet performance specifications, reliability standards, and regulatory requirements before production or deployment.
Automation Engineer: Focuses on designing, developing, and installing automated systems and equipment, often in manufacturing or industrial settings, to improve efficiency, productivity, and safety through electrical and control systems.
